A team of researchers has built a neuromorphic computing platform from networks of hydrogenated nickelate junctions that ...

A tiny change at the boundary between two oxide layers may point to a less power-hungry future for artificial intelligence.

A brain-inspired hardware platform could lead to the development of compact, low-power AI hardware. By mimicking how the brain processes information, the platform improved the speed, accuracy and ...

A new kind of nanoelectronic device could dramatically cut the energy used by AI hardware through mimicking the human brain, accordin ...

Synopsys PathFinder-SC signoff solution delivers improved precision for more accurate layout-level outcomes, manages design requirements, enables early-phase analysis ...

Researchers at the University of Cambridge have developed a high-performance memristor using a specialized ...

Researchers have developed a new kind of nanoelectronic device that could dramatically cut the energy consumed by artificial intelligence hardware by mimicking the human brain. The researchers, led by ...

University of Cambridge researchers have developed a nanoelectronic device built from hafnium oxide that mimics how ...

A research team led by Prof. Tianyu Wang and Jialin Meng from the School of Integrated Circuits and State Key Laboratory of Crystal Materials at Shandong University has developed the world’s first ...

Researchers at the University of Osaka have created artificial nanopores that open and close like biological ion channels, and they did it hundreds of times without failure. The breakthrough, ...